Department of Biology, Colorado State University, Fort Collins, CO 80523 USA.
J Exp Biol. 2010 Jan 1;213(1):172-83. doi: 10.1242/jeb.034389.
In decapod crustaceans, claw muscle undergoes atrophy in response to elevated ecdysteroids while thoracic muscle undergoes atrophy in response to unweighting. The signaling pathways that regulate muscle atrophy in crustaceans are largely unknown. Myostatin is a negative regulator of muscle growth in mammals, and a myostatin-like cDNA is preferentially expressed in muscle of the land crab, Gecarcinus lateralis (Gl-Mstn). Contrary to prediction, levels of Gl-Mstn mRNA decreased dramatically in both the claw closer and weighted thoracic muscles when molting was induced by either eyestalk ablation (ESA) or multiple limb autotomy (MLA). However, the effect of molt induction was greater in the claw muscle. By late premolt, Gl-Mstn mRNA in the claw muscle decreased 81% and 94% in ESA and MLA animals, respectively, and was negatively correlated with ecdysteroids. Gl-Mstn mRNA in thoracic muscle decreased 68% and 82% in ESA and MLA animals, respectively, but was only weakly correlated with ecdysteroid. Claw and thoracic muscles also differed to varying extents in the expression of ecdysteroid receptor (Gl-EcR and Gl-RXR), elongation factor-2 (Gl-EF-2), and calpain T (Gl-CalpT) in response to molt induction, but levels of the four transcripts were not correlated with ecdysteroid. The downregulation of Gl-Mstn expression in premolt claw muscle coincided with 11- and 13-fold increases in protein synthesis in the myofibrillar and soluble protein fractions, respectively. Furthermore, the rate of the increase in the synthesis of soluble proteins was greater than that of myofibrillar proteins during early premolt (1.4:1, soluble:myofibrillar), but the two were equivalent during late premolt. By contrast, Gl-Mstn mRNA increased 3-fold and Gl-CalpT mRNA decreased 40% in unweighted thoracic muscle; there was little or no effect on Gl-EF-2, Gl-EcR, and Gl-RXR mRNA levels. These data indicate that Gl-Mstn expression is negatively regulated by both ecdysteroids and load-bearing contractile activity. The downregulation of Gl-Mstn in claw muscle may induce the elevated protein turnover associated with remodeling of the contractile apparatus during molt-induced atrophy. The upregulation of Gl-Mstn in unweighted thoracic muscle suggests that this factor is also involved in disuse atrophy when hemolymph ecdysteroid levels are low.
在十足目甲壳动物中,爪肌肉会因蜕皮甾酮的升高而发生萎缩,而胸肌肉会因失重而发生萎缩。调控甲壳动物肌肉萎缩的信号通路在很大程度上尚不清楚。肌肉生长抑制素(Myostatin)是哺乳动物肌肉生长的负调控因子,而在陆生螃蟹 Gecarcinus lateralis(Gl-Mstn)中,肌肉优先表达一种肌肉生长抑制素样 cDNA。与预测相反,当通过切除眼柄(ESA)或多次肢体自切(MLA)来诱导蜕皮时,Gl-Mstn mRNA 的水平在爪闭合肌和负重胸肌中均显著下降。然而,蜕皮诱导的影响在爪肌中更大。在晚期预蜕皮期,ESA 和 MLA 动物的爪肌中 Gl-Mstn mRNA 分别下降了 81%和 94%,并且与蜕皮甾酮呈负相关。ESA 和 MLA 动物的胸肌中 Gl-Mstn mRNA 分别下降了 68%和 82%,但与蜕皮甾酮的相关性较弱。爪肌和胸肌在蜕皮诱导时,蜕皮甾酮受体(Gl-EcR 和 Gl-RXR)、延伸因子-2(Gl-EF-2)和钙蛋白酶 T(Gl-CalpT)的表达也存在不同程度的差异,但这四个转录物的水平与蜕皮甾酮无关。在预蜕皮期爪肌中,Gl-Mstn 表达的下调与肌原纤维和可溶性蛋白部分的蛋白质合成分别增加 11 倍和 13 倍相吻合。此外,在早期预蜕皮期间(1.4:1,可溶性:肌原纤维),可溶性蛋白合成的增加速度大于肌原纤维蛋白的增加速度,但在晚期预蜕皮期间两者相当。相比之下,未负重的胸肌中 Gl-Mstn mRNA 增加了 3 倍,Gl-CalpT mRNA 下降了 40%;Gl-EF-2、Gl-EcR 和 Gl-RXR mRNA 水平几乎没有变化或没有变化。这些数据表明,Gl-Mstn 的表达受蜕皮甾酮和承重收缩活性的负调控。爪肌中 Gl-Mstn 的下调可能会诱导与蜕皮诱导萎缩期间收缩装置重塑相关的蛋白周转率升高。未负重胸肌中 Gl-Mstn 的上调表明,当血淋巴蜕皮甾酮水平较低时,该因子也参与废用性萎缩。
